EC:3.4.25.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.25.1 (proteasome)
28,817 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Prosomes, also called "multicatalytic proteinase" or proteasomes, were purified from chick embryos of different developmental stages by a simple, single-step procedure. These were characterized by their characteristic protein patterns determined by SDS polyacrylamide gel electrophoresis (SDS PAGE) and immunoblotting with four monoclonal antibodies, namely, anti-p27, -p28, -p29 and -p31, prepared against duck prosomes. In vitro labeling of embryos with 35S-methionine followed by SDS PAGE and fluorography of the purified prosomes revealed that their polypeptides are differentially synthesized at various stages during development. Among 12 polypeptides (p21 to p56), p21 is synthesized at the beginning of gastrulation (stage 2) followed by the synthesis of p24 at stage 3. Nine other polypeptides (p25 to p35) are synthesized at the head-fold stage (stage 6), while the synthesis of polypeptide p56 is only detected at stage 10 (10-somite stage). Indirect immunofluorescence studies, with the 4 monoclonal antibodies, demonstrated 3 distinct, developmental stage-specific patterns of cytodistribution of these four prosome polypeptides in the embryos. During early embryogenesis, these are uniformly nuclear in location, while at later stages (stage 4 onwards) they are also present in the cytoplasm. Interestingly, one of the antigens (p 28), although found uniformly in all types of tissues in the embryos up to the gastrulation stage, is undetectable in the neural tissues and nonuniformly distributed in other tissues of stage-10 embryos. These data suggest that there are subcomponents of prosomes which are synthesized as well as distributed in an independent manner during development, possibly reflecting subcomponent-specific multiple functions of these particles.
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PMID:Differential synthesis and cytolocalization of prosomes in chick embryos during development. 784 36

Cyclin-dependent kinase 5 (Cdk5) was originally isolated by its close homology to the human CDC2 gene, which is a key regulator of cell cycle progression. However, unlike other Cdks, the activity of Cdk5 is required in post-mitotic neurons. The neuronal-specific p35 protein, which shares no homology to cyclins, was identified by virtue of its association and activation of Cdk5. Gene targeting studies in mice have shown that the p35/Cdk5 kinase is required for the proper neuronal migration and development of the mammalian cortex. We have investigated the regulation of the p35/Cdk5 kinase. Here we show that p35, the activator of Cdk5, is a short-lived protein with a half-life (t1/2) of 20 to 30 min. Specific proteasome inhibitors such as lactacystin greatly stabilize p35 in vivo. Ubiquitination of p35 can be readily demonstrated in vitro and in vivo. Inhibition of Cdk5 activity by a specific Cdk inhibitor, roscovitine, or by overexpression of a dominant negative mutant of Cdk5 increases the stability of p35 by 2- to 3-fold. Furthermore, phosphorylation mutants of p35 also stabilize p35 2- to 3-fold. Together, these observations demonstrate that the p35/Cdk5 kinase can be subject to rapid turnover in vivo and suggest that phosphorylation of p35 upon Cdk5 kinase activation plays a autoregulatory role in p35 degradation mediated by ubiquitin-mediated proteolysis.
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PMID:p35, the neuronal-specific activator of cyclin-dependent kinase 5 (Cdk5) is degraded by the ubiquitin-proteasome pathway. 972 24

Degradation of p35, a neuron-specific activator of CDK5, was studied in rat cortical neurons in primary culture. Treatment of cultured neurons with cyclohexamide induced the rapid disappearance of p35 accompanied by parallel inactivation of the kinase activity of CDK5. The disappearance of p35 was blocked with proteasome inhibitors benzyloxycarbonyl-leucyl-leucyl-leucinal and lactacystin, indicating the involvement of proteasome. The degradation of p35 was induced with okadaic acid in the presence of ATP in neuron extracts. The degradation of p35 by proteasome in cultured neurons was stimulated by okadaic acid in the absence of cyclohexamide. These results indicate that p35 is degraded by proteasome in a phosphorylation-dependent manner in neurons.
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PMID:Okadaic acid-stimulated degradation of p35, an activator of CDK5, by proteasome in cultured neurons. 983 83

Recently, it was shown that conversion of cdk5 activator protein p35 to a C-terminal fragment p25 promotes a deregulation of cdk5 activity, which may contribute to neurodegeneration in Alzheimer's disease. In this study, we present evidence that calpain is a protease involved in the conversion of p35 to p25. To activate calpain, rat cerebellar granule neurons were treated with maitotoxin (MTX). A C-terminus-directed anti-p35 antibody detected that p35 conversion to p25 paralleled the formation of calpain-generated alpha-spectrin (alpha-fodrin) breakdown products (SBDP's) in a maitotoxin-dose-dependent manner. Two calpain inhibitors (MDl28170 and SJA6017) reduced p35 processing but were unchanged when exposed to the caspase inhibitor carbobenzoxy-Asp-CH(2)OC(=O)-2, 6-dichlorobenzene or the proteasome inhibitors (lactacystin and Z-Ile-Glu(OtBu)Ala-Leu-CHO). p35 protein was also degraded to p25 when rat brain lysate was subjected to in vitro digestion with purified mu- and m-calpains. Additionally, in a rat temporary middle cerebral artery occlusion model, p35 processing to p25 again paralleled SBDP formation in the ischemic core. Lastly, in malonate-injured rat brains, the ipsilateral side showed a striking correlation of SBDP formation with p35 to p25 conversion and tau phosphorylation (at Ser202 and Thr205) increase. These data suggest that calpain is a major neuronal protease capable of converting p35 to p25 and might play a pathological role of activating cdk5 and its phosphorylation of tau in Alzheimer's disease.
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PMID:Processing of cdk5 activator p35 to its truncated form (p25) by calpain in acutely injured neuronal cells. 1090 89

NF-kappa B plays a critical role in coordinating the control of gene expression during monocyte/macrophage activation. In this report we describe our investigation of the mechanisms of LPS-induced NF-kappa B activation and IL-12 expression in murine peritoneal suppressor macrophages. Treatment of these macrophages with LPS induced I kappa B alpha degradation and NF-kappa B activation. EMSAs demonstrated that NF-kappa B bound to a cis-acting element located in the murine IL-12 p40 promoter. LPS signal transduction has been shown to involve a variety of signal pathways. The results in this paper indicate that LPS-induced NF-kappa B binding activity was independent of PKC, PKA, ERK, and p38 MAPK, but was regulated by proteasome. Furthermore, Proteasome Inhibitor I abolished the LPS-induced mRNA expression of IL-12 p35 and p40, and SB203580 reduced these mRNA levels, whereas the blockade of PKC, PKA, and ERK had little effect. These data demonstrate that the LPS-induced activation of proteasome. I kappa B. NF-kappa B and p38 MAPK signal pathways regulate the IL-12 expression in murine peritoneal suppressor macrophages.
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PMID:NF-kappa B regulates the LPS-induced expression of interleukin 12 p40 in murine peritoneal macrophages: roles of PKC, PKA, ERK, p38 MAPK, and proteasome. 1100 16

Cyclin-dependent kinase 5 (cdk5) is involved in the development of the nervous system and neuronal process outgrowth, and it regulates several intracellular processes including cytoskeletal dynamics. Dysregulation of cdk5 has been implicated in many disorders of the nervous system. The activity of the kinase is regulated by binding of cdk5 activators (p35, p39, p67). We examined the phosphorylation of p35, and the role of phosphorylation in regulating the proteolysis of the p35 protein. By detecting changes in electrophoretic mobility, we observed that a significant proportion of p35 is phosphorylated in rat brain tissue. In cultured neurons, the phosphorylation was prevented by roscovitine, an inhibitor of cdk5 and some other cdks. The phosphatase inhibitor okadaic acid induced p35 degradation in neuronal cultures which was sensitive to the proteasome inhibitor lactacystin. These latter results agree with some previous studies showing that phosphorylation regulates proteasomal degradation of p35. Treatment of brain homogenate with okadaic acid in the presence of ATP led to accumulation of p35 phosphorylated also by a kinase that was not inhibited by roscovitine. This implies that the effect of okadaic acid on p35 degradation could also be contributed by a non-cdk kinase. The calpain protease has been shown to cleave p35. Our results suggest that this process may also be modulated by p35 phosphorylation under some conditions. We conclude that p35 phosphorylation influences the proteasome-mediated degradation of p35 and calpain-mediated cleavage of p35 to p25.
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PMID:Influence of phosphorylation of p35, an activator of cyclin-dependent kinase 5 (cdk5), on the proteolysis of p35. 1239 64

Cyclin-dependent kinase 5 (Cdk5)/p35 kinase activity is known to decrease the affinity of beta-catenin for cadherin in developing cortical neurons. Our recent work demonstrated that depolarization causes an increased affinity between beta-catenin and cadherin. Here, we examine whether Cdk5/p35 regulates beta-catenin-cadherin affinity in response to neural activity. In hippocampal neurons depolarization caused a significant decrease in Cdk5 kinase activity, without changing the protein levels of either Cdk5 or p35, suggesting that the proteasome pathway is not involved. Decreasing Cdk5 kinase activity with the inhibitor roscovitine increased the amount of beta-catenin that was co-immunoprecipitated with cadherin. Inhibiting Cdk5 activity also resulted in a redistribution of EGFP-beta-catenin from the dendritic shaft to the spines, where cadherins are highly concentrated. The redistribution of beta-catenin induced by roscovitine is similar to that induced by depolarization. Interestingly, the redistribution induced by the Cdk5 inhibitor was completely blocked by either a tyrosine phosphatase inhibitor, orthovanadate or by point mutations of beta-catenin Tyr-654 to Glu or Phe. Immunoprecipitation studies further revealed that roscovitine increases the affinity of the wild-type, but not mutated, EGFP-beta-catenin for cadherin. These results suggest that Cdk5 activity regulates the affinity of beta-catenin for cadherin by changing the phosphorylation level of beta-catenin Tyr-654.
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PMID:Cadherins and synaptic plasticity: activity-dependent cyclin-dependent kinase 5 regulation of synaptic beta-catenin-cadherin interactions. 1274 Jan 22

Cyclin-dependent kinase 5 (Cdk5) displays kinase activity predominantly in post-mitotic neurons and its physiological roles are unrelated to cell cycle progression. Cdk5 is activated by its binding to a neuron-specific activator, p35 or p39. The protein amount of p35 or p39 is a primary determinant of the Cdk5 activity in neurons, with the amount of p35 or p39 being determined by its synthesis and degradation. The expression of p35 is induced in differentiated neurons and is enhanced by extracellular stimuli such as neurotrophic factors or extracellular matrix molecules, specifically those acting on the ERK/Erg pathway. p35 is a short-lived protein and its degradation determines the life span. Degradation is mediated by the ubiquitin/proteasome system, similar to that for cyclins in proliferating cells. Autophosphorylation of p35 by Cdk5 is a signal for ubiquitination/degradation, and the degradation of p35 is triggered by glutamate treatment in cultured neurons. p35 is cleaved to p25 by calpain at the time of neuronal cell death, and this limited cleavage is suggested to be the cause of neurodegenerative diseases such as Alzheimer's disease. Active Cdk5 changes the cellular localization by cleavage of p35 to p25; p35/Cdk5 is associated with membrane or cytoskeletons, but p25/Cdk5 is a soluble protein. Cleavage also increases the life span of p25 and changes the activity or substrate specificity of Cdk5. p25/Cdk5 shows higher phosphorylating activity to tau than p35/Cdk5 in a phosphorylation site-specific manner. Phosphorylation of p35 suppresses cleavage by calpain. Thus, phosphorylation of p35 modulates its proteolytic pattern, stimulates proteasomal degradation and suppresses calpain cleavage. Phosphorylation is age dependent, as p35 is phosphorylated in foetal brains, but unphosphorylated in adult brains. Therefore, foetal phosphorylated p35 is turned over rapidly, whereas adult unphosphorylated p35 has a long life and is easily cleaved to p25 when calpain is activated. p39 is also a short-lived protein and cleaved to the N-terminal truncation form of p29 by calpain. How the metabolism of p39 is regulated, however, is a future problem to be investigated.
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PMID:The regulation of cyclin-dependent kinase 5 activity through the metabolism of p35 or p39 Cdk5 activator. 1467 9

In primary cultures of human neurons, 17beta-estradiol (17beta-E2) prevents caspase-6-mediated cell death and induces a caspase inhibitory factor (CIF) inhibiting active caspase-6 (Csp-6) in vitro. Here, we show that treatment of neurons with 17beta-E2 results in a proteasomal-dependent but ubiquitin-independent degradation of endogenous and exogenous active Csp-6 in live neurons and in cell free assays, respectively. We further show that the proteasomal-dependent degradation of Csp-6 is not required for its inhibition. Using several protease inhibitors, we find that leupeptin, E-64, and ALLN prevent inhibition of recombinant active Csp-6 (R-Csp-6) in 17beta-E2-treated neuronal protein extracts. Because all three protease inhibitors have the ability to inhibit cysteine proteases, we believe that a cysteinyl protease activity may be required for 17beta-E2-mediated inhibition of active Csp-6. However, we exclude caspases, calpains, and cathepsins as potential cysteinyl proteases involved in the 17beta-E2-mediated Csp-6 inhibition. The results suggest that a proteolytic activity inhibited by leupeptin, E-64, and ALLN is needed to inhibit Csp-6 and that the inhibited Csp-6 is subsequently degraded by the proteasome. The mechanism of 17beta-E2-mediated inhibition of Csp-6 is different from the ubiquitin-dependent proteasomal degradation of Csp-3 and Csp-7 by XIAP and cIAP2 but consistent with the mechanism of Baculovirus p35 inhibition of caspases.
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PMID:Proteasomal degradation of caspase-6 in 17beta-estradiol-treated neurons. 1508 13

Although the roles of cyclin-dependent kinase 5 (Cdk5) in neurodevelopment and neurodegeneration have been studied extensively, regulation of Cdk5 activity has remained largely unexplored. We report here that glutamate, acting via NMDA or kainate receptors, can induce a transient Ca(2+)/calmodulin-dependent activation of Cdk5 that results in enhanced autophosphorylation and proteasome-dependent degradation of a Cdk5 activator p35, and thus ultimately down-regulation of Cdk5 activity. The relevance of this regulation to synaptic plasticity was examined in hippocampal slices using theta burst stimulation. p35(-/-) mice exhibited a lower threshold for induction of long-term potentiation. Thus excitatory glutamatergic neurotransmission regulates Cdk5 activity through p35 degradation, and this pathway may contribute to plasticity.
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PMID:Control of cyclin-dependent kinase 5 (Cdk5) activity by glutamatergic regulation of p35 stability. 1581 73

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